Protein

View in Explore

Genbank accession

QYN80079.1 [GenBank]

Protein name

hypothetical protein

RBP type

TSP

Evidence DepoScope

Probability 1,00

Protein sequence

MSTAYQLDYTQDRNPLVDYAVRNMWGNPELDSQFQIKLARVSGTEGLLNDFVYMGKRRYLPKVLTRYHVFTLGGLDTGFWNFGNRGKSWYPVDTWITAAVFSHRRAVAIDVYKGNGSMFPRDEVYIMPCEDGVTLVCLPLNHNFPLPLDKNLYLHCYSTDINVRNIKAADQLKYSFGHVGGIYVSPNDFARVRSNYDTWKAFNMGMVSFFHNGELKPIEDVQPVPGDLIEAAYDPSVELIVSYDYSTMPDYLSTLDSKRKVILFPGFIEKPHYYRYYDDCHYYVRSKRNNHGYYYHRNSEDAVRQLTHQDYGMAADYIEFLANRLIAEDTTDNTTIKDIEVVVIYHSTRWKVPLGPTSSRINDLYLLEDPGTILRAMTGVNANIKEWRAAELEKSPTNYVLNGIIQKLTTDSVRDGLGYNGCSIAMSNSPLYMPAITPGEPDFVDLHPTPPYTSGLGYQVPPTFVESSTAYEYDMNGLLLRLVGVKNQEWYAPKEGCGYVEWSLGRATTWLDYVVSKTDVKLRKGYGFRVYKAAWVIDPDWEPLDPITNELLVSQDGVDPYAPNGGELKVLKVNESPDTNTGLPPGGYPTGEWIDITDTDEYRIENDWVVFQFDTINYVGLVVFDTAHLYNEFELEHLDNSLSFGITHKWNIGGVQLPMEPGQIDIWMNRHPLTENVDYILDFPNVYIINKMWLEEGSQFIQYRGTGLSKNGLVKTSELGFVADGVLGYNGRYNLRIDRPTKTIVGGRLYLTDSLDWSEDINHGSNMMAYNGFPYEVKHIYSANKYVDWYDTYWGYDAARALDKQISDYLTQHATYKPKVPTQTVYMEQDKYRLYSPFLSLVINHLILGFLEAPTPSGNDVPYSAQVVDDLTREWQWLLKYDPIILGLDLRFFTVHPYNNLDMITLTPDQLTFISVINEQYLQGKIKIEGHFEVKHV

Physico‐chemical properties

protein length:	937 AA
molecular weight:	107513,97880 Da
isoelectric point:	5,08615
aromaticity:	0,13447
hydropathy:	-0,36265

Domains

Domains [InterPro]

IPR055617
11–936

IPR055617

QYN80079.1

1 937

Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Domains [InterPro]

InterPro ID	Start	End	Source	Name
IPR055617	11	936	InterPro	Protein of unknown function DUF7193

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Kosakonia phage Kc263 [NCBI]	2863194	Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes
Host	No host information

Coding sequence (CDS)

Genbank protein accession

QYN80079.1 [NCBI]

Genbank nucleotide accession

MZ348422 [NCBI]

CDS location

range 183344 -> 186157
strand -

CDS

ATGTCAACCGCGTATCAACTTGATTACACCCAAGACAGGAACCCTTTAGTCGATTATGCCGTACGAAACATGTGGGGTAACCCTGAGCTTGATTCTCAGTTCCAGATTAAACTGGCACGGGTTTCAGGCACAGAGGGATTACTCAACGATTTCGTTTATATGGGTAAGCGTCGCTACTTACCCAAAGTTCTGACTCGCTATCATGTCTTCACCTTAGGTGGGCTCGATACCGGATTCTGGAACTTCGGCAATCGTGGGAAAAGCTGGTATCCTGTCGATACCTGGATCACCGCGGCTGTATTCTCTCACCGACGGGCAGTAGCCATTGACGTATATAAAGGAAACGGTTCAATGTTTCCGCGTGATGAAGTTTACATCATGCCCTGCGAAGATGGCGTCACGTTGGTGTGTTTACCGCTCAATCATAATTTCCCGTTACCGCTGGATAAGAACCTTTATCTGCACTGCTACTCTACCGATATCAATGTTCGCAATATCAAAGCGGCTGACCAACTGAAATACAGTTTTGGTCATGTGGGTGGAATCTATGTTTCACCTAACGACTTTGCTCGCGTACGAAGTAACTACGATACGTGGAAAGCATTTAACATGGGAATGGTATCATTCTTCCACAATGGAGAACTGAAACCGATTGAGGATGTTCAGCCCGTACCAGGCGATTTGATCGAAGCGGCATATGACCCTTCGGTTGAATTGATTGTGAGCTATGACTACTCGACCATGCCCGATTACCTGTCGACTCTTGACAGCAAAAGGAAAGTTATTCTCTTTCCTGGGTTCATCGAAAAACCTCATTATTATCGCTATTATGATGACTGCCACTACTATGTTCGTAGTAAGCGAAATAATCACGGTTATTACTACCATCGCAACAGTGAAGATGCTGTCCGGCAACTGACCCATCAAGACTACGGCATGGCTGCCGATTACATCGAGTTCTTAGCGAACCGATTGATCGCTGAAGACACCACCGACAACACCACGATTAAAGACATCGAGGTAGTGGTGATCTATCACAGTACCCGTTGGAAAGTTCCACTGGGTCCGACATCCAGTCGTATCAATGACCTTTATCTGTTGGAAGACCCGGGCACCATTCTGCGGGCCATGACCGGGGTAAATGCCAACATTAAAGAGTGGCGTGCAGCAGAATTAGAAAAATCACCGACCAACTATGTGCTGAACGGGATTATTCAAAAGCTGACTACCGATTCGGTACGTGACGGGTTAGGGTATAACGGGTGCAGTATCGCGATGTCGAACTCACCTTTATATATGCCAGCCATTACGCCGGGTGAACCAGACTTTGTGGATCTTCATCCTACACCGCCTTACACCTCTGGGTTGGGTTACCAAGTTCCTCCTACGTTTGTTGAAAGCTCTACCGCGTACGAATATGACATGAACGGTCTGTTACTGCGTTTGGTGGGAGTGAAGAACCAGGAGTGGTACGCCCCTAAAGAAGGGTGTGGGTATGTAGAGTGGTCTTTAGGTCGTGCAACCACGTGGTTGGATTACGTGGTAAGCAAAACCGATGTGAAGCTGAGAAAAGGTTACGGGTTCCGTGTCTATAAAGCAGCGTGGGTTATTGATCCGGATTGGGAACCGCTTGATCCGATTACCAATGAACTGCTGGTCAGTCAGGACGGGGTTGATCCGTACGCACCTAACGGTGGTGAACTAAAAGTATTAAAGGTCAACGAATCACCTGATACCAATACGGGCTTACCCCCAGGTGGGTATCCTACAGGTGAATGGATTGACATCACGGACACTGACGAATACCGCATCGAGAATGATTGGGTCGTTTTCCAGTTTGATACGATTAACTACGTTGGTCTGGTGGTCTTTGACACGGCTCATTTGTACAATGAGTTTGAGCTGGAGCATTTGGATAACTCTCTGTCCTTTGGGATTACCCATAAGTGGAACATCGGTGGGGTTCAACTTCCGATGGAACCCGGTCAGATTGATATCTGGATGAACCGTCACCCGCTGACGGAGAACGTGGATTATATCCTCGATTTCCCGAACGTTTACATCATTAATAAGATGTGGCTGGAAGAAGGCTCTCAGTTCATTCAGTATCGGGGCACGGGACTTTCAAAGAACGGGTTGGTGAAAACCAGTGAGTTGGGGTTTGTAGCAGACGGGGTGTTGGGCTATAACGGTCGTTATAATCTGCGCATTGATCGTCCGACTAAAACCATTGTGGGTGGGCGACTGTATTTGACTGACTCGTTGGATTGGTCAGAAGACATCAACCACGGCAGTAACATGATGGCTTATAACGGATTCCCTTATGAAGTGAAACATATCTACTCTGCGAACAAATACGTGGACTGGTATGACACCTATTGGGGATATGACGCAGCACGGGCATTGGATAAACAGATCTCTGATTACCTGACCCAGCATGCGACCTACAAGCCGAAGGTTCCCACACAGACAGTGTACATGGAACAAGACAAGTATCGACTCTACAGTCCTTTCTTGAGCTTGGTCATTAACCATTTGATTCTGGGCTTCTTGGAAGCACCTACCCCATCTGGTAATGACGTTCCTTATTCGGCACAAGTTGTGGATGACCTGACTCGTGAATGGCAATGGTTGTTGAAATACGACCCGATTATTCTGGGCCTGGATTTGCGGTTCTTTACTGTTCATCCGTACAACAATCTGGATATGATCACACTCACGCCTGACCAGCTAACCTTTATCAGTGTCATTAATGAACAGTACCTTCAAGGGAAGATTAAAATTGAAGGTCACTTTGAGGTGAAACATGTTTGA

Tertiary structure

PDB ID

b74eea9f159cd0e88f0540318da64b5e31d257dc85187ac3a2bacf54c65466df

ESMFold

Source ESMFold

Method ESMFold

Resolution 0,2680

Oligomeric State monomer

Download PDB

Model Confidence

Very high
pLDDT > 90

High
90 > pLDDT > 70

Low
70 > pLDDT > 50

Very low
pLDDT < 50

Literature

Title	Authors	Date	PMID	Source
Novel Viruses That Lyse Plant and Human Strains of Kosakonia cowanii	Petrzik,K., Brazdova,S. and Krawczyk,K.	2021	—	GenBank

Protein

Domains

Domains [InterPro]

Domains [InterPro]

Taxonomy

Coding sequence (CDS)

Coding sequence (CDS)

Tertiary structure

Predicted Aligned Error (PAE)

Model Confidence

Literature